Please use this identifier to cite or link to this item:
Title: Fast Motion Estimation Algorithm Based on complex Wavelet Transform
Authors: N. Terki
D. Saigaa
L. Cheriet
N. Doghmane
Keywords: Motion estimation . Complex wavelet . Fast two frame algorithm . Coarse and fine model
Issue Date: 17-Mar-2016
Abstract: In ttris paper, we introduce an algorithm for mo_ tion estimation. It combines complex wavelet decomposition and a fast motion estimation method based on affine model. The principle of wavelet transform is to decompose hierarchically the input image into a series of successively lower resolution reference images and detail images which contain the information needed to be reconstructed back to the next higher resolution level. The motion estimation determines the velocity {îeld between two successive images. This phase can be extracted from this measure descriptive information of the sequence. Motion Estimation (ME) is an important part of any video compression system, since it can achieve signifîcant compression by exploiting the temporal redundancy existing in a video sequence. This paper described a method from calculating the optical flow of an image sequence based on complex wavelet kansform. It consists to project the optical flow vectors on a basis of complex-valued wavelets. Thus, we add an additional assumption on the shape of the velociÿ field that we want to find, which is the affiniÿ of the optical flow. The twodimensional afflre motion model is used to formulate the optical flow problem by coarse resolution simultaneously coarse-and-fine, beside the traditional approach by coarse-to_ fine, to avoid the error propagation during the decomposition of coarse level to fine level. This method opens the way for a quick and low-cost computing optical flow.
Appears in Collections:Publications Internationales

Files in This Item:
File Description SizeFormat 
66.pdf856,85 kBAdobe PDFView/Open

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.